/*
* edns-subnet/addrtree.h -- radix tree for edns subnet cache.
*
* Copyright (c) 2013, NLnet Labs. All rights reserved.
*
* This software is open source.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* Neither the name of the NLNET LABS nor the names of its contributors may
* be used to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/**
* \file
* The addrtree is a radix tree designed for edns subnet. Most notable
* is the addition of 'scope' to a node. Scope is only relevant for
* nodes with elem set, it indicates the number of bits the authority
* desires.
*
* For retrieving data one needs an address and address length
* (sourcemask). While traversing the tree the first matching node is
* returned. A node matches when
* node.scope<=sourcemask && node.elem!=NULL
* (This is the most specific answer the authority has.)
* or
* node.sourcemask==sourcemask && node.elem!=NULL
* (This is the most specific question the client can ask.)
*
* Insertion needs an address, sourcemask and scope. The length of the
* address is capped by min(sourcemask, scope). While traversing the
* tree the scope of all visited nodes is updated. This ensures we are
* always able to find the most specific answer available.
*/
#ifndef ADDRTREE_H
#define ADDRTREE_H
typedef uint8_t addrlen_t;
typedef uint8_t addrkey_t;
#define KEYWIDTH 8
struct addrtree {
struct addrnode *root;
/** Number of elements in the tree (not always equal to number of
* nodes) */
unsigned int node_count;
/** Maximum number of allowed nodes, will be enforced by LRU list.
* Excluding the root node, 0 for unlimited */
unsigned int max_node_count;
/** Size of tree in bytes */
size_t size_bytes;
/** Maximum prefix length we are willing to cache. */
addrlen_t max_depth;
/** External function to delete elem. Called as
* delfunc(addrnode->elem, addrtree->env) */
void (*delfunc)(void *, void *);
/** Environment for delfunc */
void *env;
/** External function returning size of elem. Called as
* sizefunc(addrnode->elem) */
size_t (*sizefunc)(void *);
/** first node in LRU list, first candidate to go */
struct addrnode* first;
/** last node in LRU list, last candidate to go */
struct addrnode *last;
};
struct addrnode {
/** Payload of node, may be NULL */
void *elem;
/** Abs time in seconds in which elem is meaningful */
time_t ttl;
/** Number of significant bits in address. */
addrlen_t scope;
/** A node can have 0-2 edges, set to NULL for unused */
struct addredge *edge[2];
/** edge between this node and parent */
struct addredge *parent_edge;
/** previous node in LRU list */
struct addrnode *prev;
/** next node in LRU list */
struct addrnode *next;
};
struct addredge {
/** address of connected node */
addrkey_t *str;
/** length in bits of str */
addrlen_t len;
/** child node this edge is connected to */
struct addrnode *node;
/** Parent node this ege is connected to */
struct addrnode *parent_node;
/** Index of this edge in parent_node */
int parent_index;
};
/**
* Size of tree in bytes.
* @param tree: Tree.
* @return size of tree in bytes.
*/
size_t addrtree_size(const struct addrtree *tree);
/**
* Create a new tree.
* @param max_depth: Tree will cap keys to this length.
* @param delfunc: f(element, env) delete element.
* @param sizefunc: f(element) returning the size of element.
* @param env: Module environment for alloc information.
* @param max_node_count: Maximum size of this data structure in nodes.
* 0 for unlimited.
* @return new addrtree or NULL on failure.
*/
struct addrtree *
addrtree_create(addrlen_t max_depth, void (*delfunc)(void *, void *),
size_t (*sizefunc)(void *), void *env, unsigned int max_node_count);
/**
* Free tree and all nodes below.
* @param tree: Tree to be freed.
*/
void addrtree_delete(struct addrtree *tree);
/**
* Insert an element in the tree. Failures are silent. Sourcemask and
* scope might be changed according to local policy. Caller should no
* longer access elem, it could be free'd now or later during future
* inserts.
*
* @param tree: Tree insert elem in.
* @param addr: key for element lookup.
* @param sourcemask: Length of addr in bits.
* @param scope: Number of significant bits in addr.
* @param elem: data to store in the tree.
* @param ttl: elem is valid up to this time, seconds.
* @param now: Current time in seconds.
*/
void addrtree_insert(struct addrtree *tree, const addrkey_t *addr,
addrlen_t sourcemask, addrlen_t scope, void *elem, time_t ttl,
time_t now);
/**
* Find a node containing an element in the tree.
*
* @param tree: Tree to search.
* @param addr: key for element lookup.
* @param sourcemask: Length of addr in bits.
* @param now: Current time in seconds.
* @return addrnode or NULL on miss.
*/
struct addrnode * addrtree_find(struct addrtree *tree,
const addrkey_t *addr, addrlen_t sourcemask, time_t now);
/** Wrappers for static functions to unit test */
int unittest_wrapper_addrtree_cmpbit(const addrkey_t *key1,
const addrkey_t *key2, addrlen_t n);
addrlen_t unittest_wrapper_addrtree_bits_common(const addrkey_t *s1,
addrlen_t l1, const addrkey_t *s2, addrlen_t l2, addrlen_t skip);
int unittest_wrapper_addrtree_getbit(const addrkey_t *addr,
addrlen_t addrlen, addrlen_t n);
int unittest_wrapper_addrtree_issub(const addrkey_t *s1, addrlen_t l1,
const addrkey_t *s2, addrlen_t l2, addrlen_t skip);
#endif /* ADDRTREE_H */